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Related Framework projects
PRIMAE
Project coordinator: Thales Avionics
2010-2014
Affordable transport for the citizen relies on innovative
solutions and technologies that will result in lower costs and lead-time of the
aircraft and its systems. In this area, the packaging of on-board computers is
an important contributor. The Packaging of futuRe Integrated ModulAr Electronics
(PRIMAE) objective is to develop a new flexible, robust and open aeronautical
packaging for the next generation of electronics and particularly to Integrated
Modular Avionics. This new concept after standardization will be able to replace
the 35 year old ARINC 600 standard.
ALICIA
Project coordinator: AgustaWestland
2009-2013
ALICIA directly addresses the Vision 2020 goal of improved time
efficiency in the air transportation system by developing new cockpit systems
that can enable significantly more aircraft movements than is possible today.
The aim within ALICIA is to develop new systems which will permit aircraft to
operate in almost all weather conditions and to fly closer together at lower
risk, whilst simultaneously driving down air transport delays.
SCARLETT
Scalable and reconfigurable electronics, platforms and tools
Project coordinator: Thales Avionics
The concept of the SCARLETT project is based on a shared
analysis made by the European Aerospace Community which supports the need to
carry out research leading to a conceptual breakthrough in IMA1G in order to
define a scalable, reconfigurable fault-tolerant driven and secure new avionics
platform, namely DME: Distributed Modular Electronics
ODICIS
One Display for a Cockpit Interactive Solution
Project coordinator: Thales Avionics
Start date 01-May-2009 (30 months duration)
ODICIS is an FP7 project aimed at developing a single display
cockpit by employing state of the art technologies.
UROOF
Photonic Components for Ultra -Wideband Radio Over Optical Fibre
Project coordinator: Holon Institute of Technology (HIT)
UROOF addresses the challenging problem of low-cost and high
performance conversion of high data rates modulated communication signals from
optical domain (over single mode and multimode fibre) to radio frequency domain
and vice-versa. UROOF focus on photonic components and device concepts that
apply for transmission of Ultra-wideband (UWB) radio signal over hybrid
wireless/fiber networks.
The public deliverable on "Topology
and architecture" provided some useful input for the DAPHNE work.
DAPHNE is supported by the European Commission under
